For this activity you will need to recall the story of "Goldilocks and the Three Bears". In the story, Goldilocks is faced with several choices during her time in the Bears' home. A. Consider the information given in the table below and answer the following questions. Papa Bear Mama Bear Baby Bear 85 o C 20 o C 52 o C 20 cm 13 cm 4 cm lectric Blue Red Yellow i. Whose bowl of porridge did Goldilocks choose? ii. What characteristic about the porridge did Goldilocks use to decide which bowl was "just right"? B. Consider the information given in the table below and answer the following questions. Papa Bear Mama Bear Baby Bear 22 o C 22 o C 22 o C 40 cm 33 cm 20 cm Metal Wood Plastic i. Which chair did Goldilocks choose?
ii. What characteristic about the chairs did Goldilocks use to decide which one was "just right"? C. Consider the information given in the table below and answer the following questions. Papa Bear Mama Bear Baby Bear 22 o C 22 o C 22 o C 15 cm 15 cm 15 cm Hard Soft Medium i. Which bed did Goldilocks choose? ii. What characteristic about the beds did Goldilocks use to decide which one was "just right"? D. If the diameter of Papa Bear's bowl had only been 10 cm, would your answers in question A change? If so, how? If not, why not?. If Mama Bear's chair was made out of plastic rather than wood, would your answers in question B change? If so, how? If not, why not? F. If Papa Bear's bed was 12 cm tall, would your answers in question C change? If so, how? If not, why not? G. If the height of Mama Bear's chair was 38 cm, would your answers in question B change? If so, how? If not, why not? H. If Mama Bear had a medium stiffness mattress, would your answers in question C change? If so, how? If not, why not?
STUDNT INSTRUCTION AND ANSWR SHT Name xamine the information provided in the table below and answer the following questions. (Note: 0.8 M arth means that the planet has a mass that is 80% the mass of arth.) 0.8 M arth 1 M arth 0.1 M arth 0.95 R arth 1 R arth 0.5 R arth 0.7 D arth 1 D arth 1.5 D arth 456 o C 10 o C -95 o C Thick Medium Thin A. Which of the characteristics listed in the table above allow life to flourish on arth but not Venus and Mars? xplain your reasoning. Describe how the characteristics identified in question A would change if the following changes were made. The arth was moved closer to the Sun.
STUDNT INSTRUCTION AND ANSWR SHT Name The planets in our Solar System orbit the Sun at very different distances. Scientists have developed a system for describing distances in our Solar System based on the average distance between arth and the Sun. The Astronomical Unit (AU) is approximately 149,570,000 kilometers (the average Sun-arth distance). The distances between objects in our Solar System are measured using the AU as the common unit of distance. The table below provides the planet's name and average orbital distance to the Sun. A. Convert the distances from km to AU for each of the planets in our Solar System. Mercury Venus arth Mars Jupiter Saturn Uranus Neptune Pluto 57,950,000 km 108,110,000 km 149,570,000 km 227,840,000 km 778,140,000 km 1,427,000,000 km 2,870,300,000 km 4,499,900,000 km 5,913,000,000 km B. Construct a scale model of our Solar System. Mark a large dot to represent the Sun at one end of your scale model. Then place dots at the correctly scaled distances away from the Sun to represent each of the nine planets. Your teacher will have further instructions on how to complete this activity. The presence of liquid water at the surface of a planet appears to be one of the central characteristics that distinguishes whether or not a planet can harbor life. This requires that the planet be at a distance from the central star where the temperature is not too low to cause all water to freeze nor too high to cause all water to boil. The region around a star where the temperature is
C. Mark the zone of habitability on your Solar System scale model. D. Which of the planets in our Solar System may have the potential for liquid water on the surface? xplain how you can tell.. Is the Moon in the zone of habitability? Does the Moon have liquid water on the surface? Why, or why not? F. Describe how the location of the zone of habitability would change if thecentral star's temperature was to increase.
STUDNT INSTRUCTION AND ANSWR SHT Name A. Obtain a set of Star Cards from your teacher. xamine each star card and using the information provided, sort the stars by their distance from arth, from largest to smallest. B. Does the star's temperature appear to depend on the distance from the arth? C. Compare the color of the star to its temperature. Compare the spectral class of the star to its temperature. Do the color or spectral class of the star appear to be related to the star's temperature? D. Sort your star cards by temperature, from coolest to hottest.. Consider the four characteristics (1) temperature, (2) color, (3) distance, and (4) class or spectral type. Which characteristics most strongly influence the size and location of the habitable zone? xplain your reasoning for each. F. If we are looking for arth-like life elsewhere in the universe, which of the stars described on the Star Cards would you explore first? What spectral classes did you choose? xplain the reasoning behind your choices. Scientists believe that life as we know it is most likely to exist around starsmost like our Sun, in the F, G and K classes. Size, temperature and lightappear to be important factors in identifying these stars. G. How would the zone of habitability be different around an "F" star, or a "K" star as compared to the Sun? xplain your reasoning.
Up to this point we have identified that the "just right" condition for life is the presence ofliquid water on a planet's surface. This suggests we should first search for a planet thatrests in orbit around a Sun-like star (classes F, G or K) within the star's zone of habitability.in addition to the distance from the star, the planet must also have a suitable atmosphere.this requires that the planet have a mass between 0.5 and 10 arth masses, with a radiusbetween 0.8 and 2.2 times that of arth. Planets that are too small will not have enoughgravity to hold an atmosphere, and larger planets will have an atmosphere too thick tosupport life as we know it. For example, photosynthesis cannot occur if the atmosphere isimpenetrable, or a runaway greenhouse effect could occur such as on Venus today. A habitable planet would also need to have the right type of atmospheric chemistry. Nitro-gen, carbon dioxide and oxygen would likely need to be present in amounts similar to whatis found on arth. Consider the information listed in the table below. Altair (7,900/A) Brady 0.05 72.4 M 10.7 R Regulus (11,500/B) Schembechler 0.75 1.5 M Procyon (6,600/F) Desmond 0.55 7.7 M 1.1 R 3.5 R Beta Cassiopeia (8,000/F) Alpha-Centauri (5,750/G) psilon Indus (4,400/K) 1.25 8 M Harbaugh 0.46 250 M Denard 1.6 0.3 M 2.1 M 175 R 0.42 R
In this activity we will investigate real data corresponding to new planets thathave been discovered outside our Solar System. Refer to the data found The (primary) star is classified by its spectral type. The planet mass is provided in multiples of the mass of arth. The distance from the star to the planet is shown in AU. For example the table shows that the star named is a G-type star.the orbiting planet has a mass of 0. times the mass of. We also find that the planet is located 0.35 AU from the star. A. xamine the first 6 planets in the table. In the space below, state whether or not the companion planet can support arth-like life. To assist you in making this determination use the Planet Classification Flowchart. For planets that fail the test, state the major factors that keep them from being candidates for arth-like life. Radius GI 785 K-0 0.038 111 M 77 R Wolf1061 M-3.036 4M 3.5R Kepler 408 G-5 0.35.68 M.25 R HD20782 F-8 0.98 1.08 M 1.8 R Wasp109 K-2 3.3 27.3 M 4.8 R Gliese M-4 0.13 41 M 33.2 R
Activity 7: Crash Landing! A meteoroid has hit your spaceship! Luckily, you are passing through the Nonog System, which consists of a sun-like star surrounded by seven planets, some of which have moons. Your ship has barely enough fuel and guidance ability to allow you to select a nearby place to crash-land. Below are profiles of each of the planets and moons in the Nonog system. The information is sketchy, but it's all your sensors had time to collect before going off-line due to the damage caused by the meteoroid. Good luck. Planet 1 (closest the star) Mass: 1.5 (arth = 1) Tectonics: Active volcanoes and seismic activity detected. Atmosphere: CO 2, N, and H 2 0 Average Temperature: 651 degrees C Description: Thick clouds surround the planet. No surface is visible through the clouds. Planet 2 Mass: 0.5 Tectonics: No activity detected. Atmosphere: Thin CO 2 atmosphere detected. Average Temperature: 10 degrees C Description: Polar ice caps, dry riverbeds, and many craters can be seen from orbit. Planet 3 Mass: 1 Tectonics: Active volcanoes and seismic activity detected. Atmosphere: CO 2, H 2 0 Temperature: 30 degrees C Description: Liquid water oceans cover much of the surface. Volcanic island chains make up most of the dry land. Planet 4 Mass: 1.5 Tectonics: Active volcanoes and seismic activity detected. Atmosphere: N, O 2, and ozone layer Average Temperature: 2 degrees C Description: Cold oceans, covered with ice along much of the globe. Some open water around equator. Planet 5 Gas Giant with one large moon. Moon: Sulfur dioxide (SO 2 ) atmosphere. Many volcanoes and hot springs on surface. Temperatures in hot spots can be up to 600 degrees C. Other spots away from volcanic heat can get as low in temperature as 145 degrees C. Planet 6 Gas giant with four large, rocky satellites (moons). Moons have no appreciable atmosphere. Ice detectable on one. Planet 7 (furthest from star) Gas giant with two large moons. Moon 1: Thick methane atmosphere with high enough pressure to keep a potential methane ocean liquid underneath. Temperature: -200 degrees C Moon 2: Covered in water ice. Ice appears cracked and re-frozen in parts, indicating a potential liquid ocean underneath. Surface temperature -100 degrees C.